Functional pharmacology of H1 histamine receptors expressed in mouse preoptic/anterior hypothalamic neurons

BACKGROUND AND PURPOSE

Histamine H₁ receptors are highly expressed in hypothalamic neurons and mediate histaminergic modulation of several brain-controlled physiological functions, such as sleep, feeding and thermoregulation. In spite of the fact that the mouse is used as an experimental model for studying histaminergic signalling, the pharmacological characteristics of mouse H₁ receptors have not been studied. In particular, selective and potent H₁ receptor agonists have not been identified.

EXPERIMENTAL APPROACH

Ca²⁺ imaging using fura-2 fluorescence signals and whole-cell patch-clamp recordings were carried out in mouse preoptic/anterior hypothalamic neurons in culture.

KEY RESULTS

The H₁ receptor antagonists mepyramine and trans-triprolidine potently antagonized the activation by histamine of these receptors with IC₅₀ values of 0.02 and 0.2 μM respectively. All H₁ receptor agonists studied had relatively low potency at the H₁ receptors expressed by these neurons. Methylhistaprodifen and 2-(3-trifluoromethylphenyl)histamine had full-agonist activity with potencies similar to that of histamine. In contrast, 2-pyridylethylamine and betahistine showed only partial agonist activity and lower potency than histamine. The histamine receptor agonist, 6-[2-(4-imidazolyl)ethylamino]-N-(4-trifluoromethylphenyl)heptanecarboxamide (HTMT) had no agonist activity at the H₁ receptors H1 receptors expressed by mouse preoptic/anterior hypothalamic neurons but displayed antagonist activity.

CONCLUSIONS AND IMPLICATIONS

Methylhistaprodifen and 2-(3-trifluoromethylphenyl)histamine were identified as full agonists of mouse H₁ receptors. These results also indicated that histamine H₁ receptors in mice exhibited a pharmacological profile in terms of agonism, significantly different from those of H₁ receptors expressed in other species.     

In vitro and in vivo characterization of A-940894: a potent histamine H4 receptor antagonist with anti-inflammatory properties

Background and purpose:

The histamine H₄ receptor is widely expressed in cells of immune origin and has been shown to play a role in a variety of inflammatory processes mediated by histamine. In this report, we describe the in vitro and in vivo anti-inflammatory properties of a potent histamine H₄ receptor antagonist, A-940894 (4-piperazin-1-yl-6,7-dihydro-5H-benzo[6,7]cyclohepta[1,2-d]pyrimidin-2-ylamine).

Experimental approach:

We have analysed the pharmacological profile of A-940894 at mouse native, rat recombinant and human recombinant and native, histamine H₄ receptors by radioligand binding, calcium mobilization, mast cell shape change, eosinophil chemotaxis assays and in the mouse model of zymosan-induced peritonitis.

Key results:

A-940894 potently binds to both human and rat histamine H₄ receptors and exhibits considerably lower affinity for the human histamine H₁, H₂ or H₃ receptors. It potently blocked histamine-evoked calcium mobilization in the fluorometric imaging plate reader assays and inhibited histamine-induced shape change of mouse bone marrow-derived mast cells and chemotaxis of human eosinophils in vitro. In a mouse mast cell-dependent model of zymosan-induced peritonitis, A-940894 significantly blocked neutrophil influx and reduced intraperitoneal prostaglandin D₂ levels. Finally, A-940894 has good pharmacokinetic properties, including half-life and oral bioavailability in rats and mice.

Conclusions and Implications:

These data suggest that A-940894 is a potent and selective histamine H₄ receptor antagonist with pharmacokinetic properties suitable for long-term in vivo testing and could serve as a useful tool for the further characterization of histamine H₄ receptor pharmacology.     

Pharmacological characterization of GSK1004723, a novel, long-acting antagonist at histamine H(1) and H(3) receptors

BACKGROUND AND PURPOSE

Preclinical pharmacological characterization of GSK1004723, a novel, dual histamine H₁ and H₃ receptor antagonist.

EXPERIMENTAL APPROACH

GSK1004723 was characterized in vitro and in vivo using methods that included radioligand binding, intracellular calcium mobilization, cAMP production, GTPγS binding, superfused human bronchus and guinea pig whole body plethysmography.

KEY RESULTS

In cell membranes over-expressing human recombinant H₁ and H₃ receptors, GSK1004723 displayed high affinity, competitive binding (H₁ pKi = 10.2; H₃ pKi = 10.6). In addition, GSK1004723 demonstrated slow dissociation from both receptors with a t_1/2 of 1.2 and 1.5 h for H₁ and H₃ respectively. GSK1004723 specifically antagonized H₁ receptor mediated increases in intracellular calcium and H₃ receptor mediated increases in GTPγS binding. The antagonism exerted was retained after cell washing, consistent with slow dissociation from H₁ and H₃ receptors. Duration of action was further evaluated using superfused human bronchus preparations. GSK1004723 (100 nmol·L⁻¹) reversed an established contractile response to histamine. When GSK1004723 was removed from the perfusate, only 20% recovery of the histamine response was observed over 10 h. Moreover, 21 h post-exposure to GSK1004723 there remained almost complete antagonism of responses to histamine. In vivo pharmacology was studied in conscious guinea pigs in which nasal congestion induced by intranasal histamine was measured indirectly (plethysmography). GSK1004723 (0.1 and 1 mg·mL⁻¹ intranasal) antagonized the histamine-induced response with a duration of up to 72 h.

CONCLUSIONS AND IMPLICATIONS

GSK1004723 is a potent and selective histamine H₁ and H₃ receptor antagonist with a long duration of action and represents a potential novel therapy for allergic rhinitis.     

Altered histamine H3 receptor radioligand binding in post-mortem brain samples from subjects with psychiatric diseases

Background and purpose:

Histamine is a modulatory neurotransmitter in the brain. Auto- and hetero-histamine H₃ receptors are present in human brain and are potential targets of antipsychotics. These receptors may also display disease-related abnormalities in psychiatric disorders. Here we have assessed how histamine H₃ receptors in human brain may be affected in schizophrenia, bipolar disorder, major depression.

Experimental approach:

Histamine H₃ receptor radioligand binding assays were applied to frozen post-mortem prefrontal and temporal cortical sections and anterior hippocampal sections from subjects with schizophrenia, bipolar disorder, major depression and matched controls.

Key results:

Compared with the controls, increased H₃ receptor radioligand binding was found in dorsolateral prefrontal cortex of schizophrenic subjects (especially the ones who were treated with atypical antipsychotics), and bipolar subjects with psychotic symptoms. No differences in H₃ receptor radioligand binding were found in the temporal cortex. In hippocampal formation of control subjects, H₃ receptor radioligand binding was prominent in dentate gyrus, subiculum, entorhinal cortex and parasubiculum. Decreased H₃ binding was found in the CA4 area of bipolar subjects. Decreased H₃ binding in CA2 and presubiculum of medication-free bipolar subjects was also seen.

Conclusions and implications:

The results suggest that histamine H₃ receptors in the prefrontal cortex take part in the modulation of cognition, which is impaired in schizophrenic subjects and bipolar subjects with psychotic symptoms. Histamine H₃ receptors probably regulate connections between hippocampus and various cortical and subcortical regions and could also be involved in the neuropathology of schizophrenia and bipolar disorder.     

Pharmacological characterization of the new histamine H4 receptor agonist VUF 8430

Background and purpose:

We compare the pharmacological profiles of a new histamine H₄ receptor agonist 2-(2-guanidinoethyl)isothiourea (VUF 8430) with that of a previously described H₄ receptor agonist, 4-methylhistamine.

Experimental approach:

Radioligand binding and functional assays were performed using histamine H₄ receptors expressed in mammalian cell lines. Compounds were also evaluated ex vivo in monocyte-derived dendritic cells endogenously expressing H₄ receptors and in vivo in anaesthetized rats for gastric acid secretion activity.

Key results:

Both VUF 8430 and 4-methylhistamine were full agonists at human H₄ receptors with lower affinity at rat and mouse H₄ receptors. Both compounds induced chemotaxis of monocyte-derived dendritic cells. VUF 8430 also showed reasonable affinity and was a full agonist at the H₃ receptor. Agmatine is a metabolite of arginine, structurally related to VUF 8430, and was a H₄ receptor agonist with micromolar affinity. At histamine H₃ receptors, agmatine was a full agonist, whereas 4-methylhistamine was an agonist only at high concentrations. Both VUF 8430 and agmatine were inactive at H₁ and H₂ receptors, whereas 4-methylhistamine is as active as histamine at H₂ receptors. In vivo, VUF 8430 only caused a weak secretion of gastric acid mediated by H₂ receptors, whereas 4-methylhistamine, dimaprit, histamine and amthamine, at equimolar doses, induced 2.5- to 6-fold higher output than VUF 8430.

Conclusions and implications:

Our results suggest complementary use of 4-methylhistamine and VUF 8430 as H₄ receptor agonists. Along with H₄ receptor antagonists, both agonists can serve as useful pharmacological tools in studies of histamine H₄ receptors.     

Use of the H3 receptor antagonist radioligand [3H]-A-349821 to reveal in vivo receptor occupancy of cognition enhancing H3 receptor antagonists

Background and purpose:

The histamine H₃ receptor antagonist radioligand [³H]-A-349821 was characterized as a radiotracer for assessing in vivo receptor occupancy by H₃ receptor antagonists that affect behaviour. This model was established as an alternative to ex vivo binding methods, for relating antagonist H₃ receptor occupancy to blood levels and efficacy in preclinical models.

Experimental approach:

In vivo cerebral cortical H₃ receptor occupancy by [³H]-A-349821 was determined in rats from differences in [³H]-A-349821 levels in the isolated cortex and cerebellum, a brain region with low levels of H₃ receptors. Comparisons were made to relate antagonist H₃ receptor occupancy to blood levels and efficacy in a preclinical model of cognition, the five-trial inhibitory avoidance response in rat pups.

Key results:

In adult rats, [³H]-A-349821, 1.5 µg·kg⁻¹, penetrated into the brain and cleared more rapidly from cerebellum than cortex; optimally, [³H]-A-349821 levels were twofold higher in the latter. With increasing [³H]-A-349821 doses, cortical H₃ receptor occupancy was saturable with a binding capacity consistent with in vitro binding in cortex membranes. In studies using tracer [³H]-A-349821 doses, ABT-239 and other H₃ receptor antagonists inhibited H₃ receptor occupancy by [³H]-A-349821 in a dose-dependent manner. Blood levels of the antagonists corresponding to H₃ receptor occupancy were consistent with blood levels associated with efficacy in the five-trial inhibitory avoidance response.

Conclusions and implications:

When employed as an occupancy radiotracer, [³H]-A-349821 provided valid measurements of in vivo H₃ receptor occupancy, which may be helpful in guiding and interpreting clinical studies of H₃ receptor antagonists.     

Urethane,but not pentobarbitone,attenuates presynaptic receptor function in rats: a contribution to the choice of anaesthetic

Background and purpose:

We examined whether cannabinoid CB₁ and histamine H₃ receptors resemble α₂-adrenoceptors in that their presynaptically mediated cardiovascular effects are less marked in urethane- than in pentobarbitone-anaesthetized pithed rats.

Experimental approach:

Effects of the cannabinoid agonist CP-55,940 and the H₃ receptor agonist imetit on electrically induced tachycardic and vasopressor responses, respectively, was compared in pithed rats anaesthetized with urethane or pentobarbitone. The affinity of urethane for the three receptors was measured by radioligand binding studies in rat brain cortex membranes and its potency assessed in superfused mouse tissues preincubated with ³H-noradrenaline.

Key results:

The neurogenic tachycardic response was less markedly inhibited by CP-55,940 in urethane- than in pentobarbitone-anaesthetized pithed rats. Imetit inhibited the neurogenic vasopressor response after pentobarbitone but not after urethane. The catecholamine-induced tachycardic and vasopressor response did not differ between rats anaesthetized with either compound. Urethane 10 mM (plasma concentration reached under anaesthesia) did not affect binding to CB₁ or H₃ receptors and α₂ adrenoceptors, nor did it alter the inhibitory effect of agonists at the three receptors on electrically evoked ³H-noradrenaline release.

Conclusions and implications:

Urethane, but not pentobarbitone, abolished the H₃ receptor-mediated vascular response in pithed rats and attenuated the CB₁ receptor-mediated cardiac response much more than pentobarbitone. The weaker effects of CB₁, H₃ and α₂ receptor agonists cannot be explained by antagonism by urethane at the three receptors in vitro. Pentobarbitone, but not urethane, is suitable as an anaesthetic for investigations of inhibitory presynaptic receptor function in pithed and anaesthetized rats.     

Therapeutic potential of histamine H4 receptor agonists in triple-negative human breast cancer experimental model

Background and Purpose

The presence of the histamine H₄ receptor (H₄R) was previously reported in benign and malignant lesions and cell lines derived from the human mammary gland. The aim of this work was to evaluate the effects of H₄R ligands on the survival, tumour growth rate and metastatic capacity of breast cancer in an experimental model.

Experimental Approach

Xenograft tumours of the highly invasive human breast cancer cell line MDA-MB-231 were established in immune deficient nude mice. The following H₄R agonists were employed: histamine (5 mg kg⁻¹), clozapine (1 mg kg⁻¹) and the experimental compound JNJ28610244 (10 mg kg⁻¹).

Results

Data indicate that developed tumours were highly undifferentiated, expressed H₄R and exhibited high levels of histamine content and proliferation marker (PCNA) while displaying low apoptosis. Mice of the untreated group displayed a median survival of 60 days and a tumour doubling time of 7.4 ± 0.6 days. A significant decrease in tumour growth evidenced by an augment of the tumour doubling time was observed in the H₄R agonist groups (13.1 ± 1.2, P < 0.01 in histamine group; 15.1 ± 1.1, P < 0.001 in clozapine group; 10.8 ± 0.7, P < 0.01 in JNJ28610244 group). This effect was associated with a decrease in the PCNA expression levels, and also reduced intratumoural vessels in histamine and clozapine treated mice. Histamine significantly increased median survival (78 days; Log rank Mantel-Cox Test, P = 0.0025; Gehan-Breslow-Wilcoxon Test, P = 0.0158) and tumoural apoptosis.

Conclusions and Implications

Histamine through the H₄R exhibits a crucial role in tumour progression. Therefore, H₄R ligands offer a novel therapeutic potential as adjuvants for breast cancer treatment.

Linked Articles

This article is part of a themed issue on Histamine Pharmacology Update. To view the other articles in this issue visit http://dx.doi.org/10.1111/bph.2013.170.issue-1     

The expression and function of histamine H3 receptors in pancreatic beta cells

BACKGROUND AND PURPOSE

Histamine and its receptors in the CNS play important roles in energy homeostasis. Here, we have investigated the expression and role of histamine receptors in pancreatic beta cells, which secrete insulin.

EXPERIMENTAL APPROACH

The expression of histamine receptors in pancreatic beta cells was examined by RT-PCR, Western blotting and immunostaining. Insulin secretion assay, ATP measurement and calcium imaging studies were performed to determine the function and signalling pathway of histamine H₃ receptors in glucose-induced insulin secretion (GIIS) from MIN6 cells, a mouse pancreatic beta cell line. The function and signalling pathway of H₃ receptors in MIN6 cell proliferation were examined using pharmacological assay and Western blotting.

KEY RESULTS

Histamine H₃ receptors were expressed in pancreatic beta cells. A selective H₃ receptor agonist, imetit, and a selective inverse H₃ receptor agonist, JNJ-5207852, had inhibitory and facilitatory effects, respectively, on GIIS in MIN6 cells. Neither imetit nor JNJ-5207852 altered intracellular ATP concentration, or intracellular calcium concentration stimulated by glucose and KCl, indicating that GIIS signalling was affected by H₃ receptor signalling downstream of the increase in intracellular calcium concentration. Moreover, imetit attenuated bromodeoxyuridine incorporation in MIN6 cells. The phosphorylation of cAMP response element-binding protein (CREB), which facilitated beta cell proliferation, was inhibited, though not significantly, by imetit, indicating that activated H₃ receptors inhibited MIN6 cell proliferation, possibly by decreasing CREB phosphorylation.

CONCLUSIONS AND IMPLICATIONS

Histamine H₃ receptors were expressed in mouse beta cells and could play a role in insulin secretion and, possibly, beta cell proliferation.     

Central antinociception induced by μ-opioid receptor agonist morphine,but not δ- or κ-, is mediated by cannabinoid CB1 receptor

Background and purpose:

It has been demonstrated that cannabinoids evoke the release of endogenous opioids to produce antinociception; however, no information exists regarding the participation of cannabinoids in the antinociceptive mechanisms of opioids. The aim of the present study was to determine whether endocannabinoids are involved in central antinociception induced by activation of µ-, δ- and κ-opioid receptors.

Experimental approach:

Nociceptive threshold to thermal stimulation was measured according to the tail-flick test in Swiss mice. Morphine (5 µg), SNC80 (4 µg), bremazocine (4 µg), AM251 (2 and 4 µg), AM630 (2 and 4 µg) and MAFP (0.1 and 0.4 µg) were administered by the intracerebroventricular route.

Key results:

The CB₁-selective cannabinoid receptor antagonist AM251 completely reversed the central antinociception induced by morphine in a dose-dependent manner. In contrast, the CB₂-selective cannabinoid receptor antagonist AM630 did not antagonize this effect. Additionally, the administration of the anandamide amidase inhibitor, MAFP, significantly enhanced the antinociception induced by morphine. In contrast, the antinociceptive effects of δ- and κ-opioid receptor agonists were not affected by the cannabinoid antagonists. The antagonists alone caused no hyperalgesic or antinociceptive effects.

Conclusions and implications:

The results provide evidence for the involvement of cannabinoid CB₁ receptors in the central antinociception induced by activation of µ-opioid receptors by the agonist morphine. The release of endocannabinoids appears not to be involved in central antinociception induced by activation of κ- and δ-opioid receptors.     

Characterization of histamine H3 receptors in Alzheimer's Disease brain and amyloid over-expressing TASTPM mice

Background and purpose:

Histamine H₃ receptor antagonists are currently being evaluated for their potential use in a number of central nervous system disorders including Alzheimer''s Disease (AD). To date, little is known about the state of H₃ receptors in AD.

Experimental approach:

In the present study we used the radiolabelled H₃ receptor antagonist [³H]GSK189254 to investigate H₃ receptor binding in the amyloid over-expressing double mutant APPswe × PSI.MI46V (TASTPM) transgenic mouse model of AD and in post-mortem human AD brain samples.

Key results:

No significant differences in specific H₃ receptor binding were observed between wild type and TASTPM mice in the cortex, hippocampus or hypothalamus. Specific [³H]GSK189254 binding was detected in sections of human medial frontal cortex from AD brains of varying disease severity (Braak stages I–VI). With more quantitative analysis in a larger cohort, we observed that H₃ receptor densities were not significantly different between AD and age-matched control brains in both frontal and temporal cortical regions. However, within the AD group, [³H]GSK189254 binding density in frontal cortex was higher in individuals with more severe dementia prior to death.

Conclusions and implications:

The maintenance of H₃ receptor integrity observed in the various stages of AD in this study is important, given the potential use of H₃ antagonists as a novel therapeutic approach for the symptomatic treatment of AD.     

Marked changes in signal transduction upon heteromerization of dopamine D1 and histamine H3 receptors

Background and purpose:

Functional interactions between the G protein-coupled dopamine D₁ and histamine H₃ receptors have been described in the brain. In the present study we investigated the existence of D₁–H₃ receptor heteromers and their biochemical characteristics.

Experimental approach:

D₁–H₃ receptor heteromerization was studied in mammalian transfected cells with Bioluminescence Resonance Energy Transfer and binding assays. Furthermore, signalling through mitogen-activated protein kinase (MAPK) and adenylyl cyclase pathways was studied in co-transfected cells and compared with cells transfected with either D₁ or H₃ receptors.

Key results:

Bioluminescence Resonance Energy Transfer and binding assays confirmed that D₁ and H₃ receptors can heteromerize. Activation of histamine H₃ receptors did not lead to signalling towards the MAPK pathway unless dopamine D₁ receptors were co-expressed. Also, dopamine D₁ receptors, usually coupled to G_s proteins and leading to increases in cAMP, did not couple to G_s but to G_i in co-transfected cells. Furthermore, signalling via each receptor was blocked not only by a selective antagonist but also by an antagonist of the partner receptor.

Conclusions and implications:

D₁–H₃ receptor heteromers constitute unique devices that can direct dopaminergic and histaminergic signalling towards the MAPK pathway in a G_s-independent and G_i-dependent manner. An antagonist of one of the receptor units in the D₁–H₃ receptor heteromer can induce conformational changes in the other receptor unit and block specific signals originating in the heteromer. This gives rise to unsuspected therapeutic potentials for G protein-coupled receptor antagonists.     

Stimulation of angiotensin AT2 receptors by the non-peptide agonist,Compound 21, evokes vasodepressor effects in conscious spontaneously hypertensive rats

Background and purpose:

Angiotensin type 2 receptor (AT₂ receptor) stimulation evokes vasodilator effects in vitro and in vivo that oppose the vasoconstrictor effects of angiotensin type 1 receptors (AT₁ receptors). Recently, a novel non-peptide AT₂ receptor agonist, Compound 21, was described, which exhibited high AT₂ receptor selectivity.

Experimental approach:

Functional cardiovascular effects of the drug candidate Compound 21 were assessed, using mouse isolated aorta and rat mesenteric arteries in vitro and in conscious spontaneously hypertensive rats (SHR).

Key results:

Compound 21 evoked dose-dependent vasorelaxations in aortic and mesenteric vessels, abolished by the AT₂ receptor antagonist, PD123319. In vivo, Compound 21 administered alone, at doses ranging from 50 to 1000 ng·kg⁻¹·min⁻¹ over 4 h did not decrease blood pressure in conscious normotensive Wistar-Kyoto rats or SHR. However, when given in combination with the AT₁ receptor antagonist, candesartan, Compound 21 (300 ng·kg⁻¹·min⁻¹) lowered blood pressure in SHR only. Further analysis in separate groups of conscious SHR revealed that, at a sixfold lower dose, Compound 21 (50 ng·kg⁻¹·min⁻¹) still evoked a significant depressor response in adult SHR (∼30 mmHg) when combined with different doses of candesartan (0.01 or 0.1 mg·kg⁻¹). Moreover, the Compound 21-evoked depressor effect was abolished when co-infused (50 µg·kg⁻¹·min⁻¹ for 2 h) with the AT₂ receptor antagonist PD123319.

Conclusion and implications:

Collectively, our results indicate that acute administration of Compound 21 evoked blood pressure reductions via AT₂ receptor stimulation. Thus Compound 21 can be considered an excellent drug candidate for further study of AT₂ receptor function in cardiovascular disease.     

Inhibition of colonic motility and defecation by RS-127445 suggests an involvement of the 5-HT2B receptor in rodent large bowel physiology

Background:

5-HT_2B receptors are localized within the myenteric nervous system, but their functions on motor/sensory neurons are unclear. To explore the role of these receptors, we further characterized the 5-HT_2B receptor antagonist RS-127445 and studied its effects on peristalsis and defecation.

Experimental approach:

Although reported as a selective 5-HT_2B receptor antagonist, any interactions of RS-127445 with 5-HT₄ receptors are unknown; this was examined using the recombinant receptor and Biomolecular Interaction Detection technology. Mouse isolated colon was mounted in tissue baths for isometric recording of neuronal contractions evoked by electrical field stimulation (EFS), or under an intraluminal pressure gradient to induce peristalsis; the effects of RS-127445 on EFS-induced and on peristaltic contractions were measured. Faecal output of rats in grid-bottom cages was measured over 3 h following i.p. RS-127445 and separately, validation of the effective doses was achieved by determining the free, unbound fraction of RS-127445 in blood and brain.

Key results:

RS-127445 (up to 1 µmol·L⁻¹) did not interact with the 5-HT₄ receptor. RS-127445 (0.001–1 µmol·L⁻¹) did not affect EFS-induced contractions of the colon, although at 10 µmol·L⁻¹ the contractions were reduced (to 36 ± 8% of control, n= 4). RS-127445 (0.1–10 µmol·L⁻¹) concentration-dependently reduced peristaltic frequency (n= 4). RS-127445 (1–30 mg·kg⁻¹), dose-dependently reduced faecal output, reaching significance at 10 and 30 mg·kg⁻¹ (n= 6–11). In blood and brain, >98% of RS-127445 was protein-bound.

Conclusions and implications:

High-protein binding of RS-127445 indicates that relatively high doses are required for efficacy. The results suggest that 5-HT_2B receptors tonically regulate colonic motility.     

Unexpectedly high affinity of a novel histamine H3 receptor antagonist,GSK239512, in vivo in human brain,determined using PET

BACKGROUND AND PURPOSE

This study aimed to investigate the relationship between the plasma concentration (PK) of the novel histamine H₃ receptor antagonist, GSK239512, and the brain occupancy of H₃ receptors (RO) in healthy human volunteers.

EXPERIMENTAL APPROACH

PET scans were obtained after i.v. administration of the H₃-specific radioligand [¹¹C]GSK189254. Each subject was scanned before and after single oral doses of GSK239512, at 4 and 24 h after dose. PET data were analysed by compartmental analysis, and regional RO estimates were obtained by graphical analysis of changes in the total volumes of distribution of the radioligand, followed by a correction for occupancy by the high affinity radioligand. The PK/RO relationship was analysed by a population-modelling approach, using the average PK of GSK239512 during each scan.

KEY RESULTS

Following administration of GSK239512, there was a reduction in the brain uptake of [¹¹C]GSK189254 in all regions, including cerebellum. RO at 4 h was higher than at 24 h, and the PK/RO model estimated a PK associated with 50% of RO of 0.0068 ng·mL⁻¹. This corresponds to a free concentration of 4.50 × 10⁻¹²M (pK = 11.3).

CONCLUSIONS AND IMPLICATIONS

The affinity of GSK239512 for brain H₃ receptors in humans in vivo is much higher than that expected from studies in vitro, and higher than that observed in PET studies in pigs. The study illustrates the utility of carrying out PET studies in humans early in drug development, providing accurate quantification of GSK239512 RO in vivo as a function of time and dose.     

Cannabinoid CB(2) receptor attenuates morphine-induced inflammatory responses in activated microglial cells

BACKGROUND AND PURPOSE

Among several pharmacological properties, analgesia is the most common feature shared by either opioid or cannabinoid systems. Cannabinoids and opioids are distinct drug classes that have been historically used separately or in combination to treat different pain states. In the present study, we characterized the signal transduction pathways mediated by cannabinoid CB₂ and µ-opioid receptors in quiescent and LPS-stimulated murine microglial cells.

EXPERIMENTAL APPROACH

We examined the effects of µ-opioid and CB₂ receptor stimulation on phosphorylation of MAPKs and Akt and on IL-1β, TNF-α, IL-6 and NO production in primary mouse microglial cells.

KEY RESULTS

Morphine enhanced release of the proinflammatory cytokines, IL-1β, TNF-α, IL-6, and of NO via µ-opioid receptor in activated microglial cells. In contrast, CB₂ receptor stimulation attenuated morphine-induced microglial proinflammatory mediator increases, interfering with morphine action by acting on the Akt-ERK1/2 signalling pathway.

CONCLUSIONS AND IMPLICATIONS

Because glial activation opposes opioid analgesia and enhances opioid tolerance and dependence, we suggest that CB₂ receptors, by inhibiting microglial activity, may be potential targets to increase clinical efficacy of opioids.     

Characterization of biosynthesis and modes of action of prostaglandin E2 and prostacyclin in guinea pig mesenteric lymphatic vessels

Background and purpose:

Rhythmical transient constrictions of the lymphatic vessels provide the means for efficient lymph drainage and interstitial tissue fluid balance. This activity is critical during inflammation, to avoid or limit oedema resulting from increased vascular permeability, mediated by the release of various inflammatory mediators. In this study, we investigated the mechanisms by which prostaglandin E₂ (PGE₂) and prostacyclin modulate lymphatic contractility in isolated guinea pig mesenteric lymphatic vessels.

Experimental approach:

Quantitative RT-PCR was used to assess the expression of mRNA for enzymes and receptors involved in the production and action of PGE₂ and prostacyclin in mesenteric collecting lymphatic vessels. Frequency and amplitude of lymphatic vessel constriction were measured in the presence of these prostaglandins and the role of their respective EP and IP receptors assessed.

Key results:

Prostaglandin E₂ and prostacyclin decreased concentration-dependently the frequency, without affecting the amplitude, of lymphatic constriction. Data obtained in the presence of the EP₄ receptor antagonists, GW627368x (1 µM) and AH23848B (30 µM) and the IP receptor antagonist CAY10441 (0.1 µM) suggest that PGE₂ predominantly activates EP₄, whereas prostacyclin mainly stimulates IP receptors. Inhibition of responses to either prostaglandin with H89 (10 µM) or glibenclamide (1 µM) suggested a role for the activation of protein kinase A and ATP-sensitive K⁺ channels.

Conclusions and implications:

Our findings characterized the inhibition of lymphatic pumping induced by PGE₂ or prostacyclin in guinea pig mesenteric lymphatics. This action is likely to impair oedema resolution and to contribute to the pro-inflammatory actions of these prostaglandins.     

Profiling of histamine H4 receptor agonists in native human monocytes

Background and Purpose

Since the identification of the histamine H₄ receptor, several ligands activating this receptor have been described and more compounds are in development. These ligands are well characterized in pharmacological assays, including radioligand competition binding studies, GTPγS and GTPase assays. In most cases, these experiments are performed in transfected cell lines, expressing unnaturally high levels of target receptors and G-protein signalling components. In this study we investigated the specific properties of H₄ receptor ligands in native cells.

Experimental Approach

Histamine and five different H₄ receptor agonists – 4-methylhistamine, UR-PI376, clobenpropit, VUF8430 and ST-1006 – were characterized in freshly isolated human monocytes. The ligands (10 nM–10 μM) were tested as inhibitors of IL-12p70 secretion from human monocytes and the effects of the H₂ receptor antagonist ranitidine and the H₄ receptor antagonist JNJ7777120 on their action was investigated.

Key Results

Histamine and all the tested agonists reduced IL-12p70 secretion into monocyte supernatants by 40–70%. The potencies varied with pEC₅₀ values ranging from 5.7 to 6.9, depending on the agonist used. All potencies were lower than those determined in the original investigations of the compounds. Pretreatment of monocytes with H₂ or H₄ receptor antagonists showed that some H₄ receptor ligands also had low activity at the H₂ receptor.

Conclusions and Implications

Our study demonstrates discrepancies between the potencies obtained from assays in transfected cell lines and assays in native human cells, indicating the importance of evaluating H₄ receptor ligands in native cells.

Linked Articles

This article is part of a themed issue on Histamine Pharmacology Update. To view the other articles in this issue visit http://dx.doi.org/10.1111/bph.2013.170.issue-1     

Histamine modulates γδ-T lymphocyte migration and cytotoxicity, via Gi and Gs protein-coupled signalling pathways

Background and purpose:

The biogenic amine, histamine plays a pathophysiological regulatory role in cellular processes of a variety of immune cells. This work analyses the actions of histamine on γδ-T lymphocytes, isolated from human peripheral blood, which are critically involved in immunological surveillance of tumours.

Experimental approach:

We have analysed effects of histamine on the intracellular calcium, actin reorganization, migratory response and the interaction of human γδ T cells with tumour cells such as the A2058 human melanoma cell line, the human Burkitt''s Non-Hodgkin lymphoma cell line Raji, the T-lymphoblastic lymphoma cell line Jurkat and the natural killer cell-sensitive erythroleukaemia cell line, K562.

Key results:

γδ T lymphocytes express mRNA for different histamine receptor subtypes. In human peripheral blood γδ T cells, histamine stimulated Pertussis toxin-sensitive intracellular calcium increase, actin polymerization and chemotaxis. However, histamine inhibited the spontaneous cytolytic activity of γδ T cells towards several tumour cell lines in a cholera toxin-sensitive manner. A histamine H₄ receptor antagonist abolished the histamine induced γδ T cell migratory response. A histamine H₂ receptor agonist inhibited γδ T cell-mediated cytotoxicity.

Conclusions and implications:

Histamine activated signalling pathways typical of chemotaxis (G_i protein-dependent actin reorganization, increase of intracellular calcium) and induced migratory responses in γδ T lymphocytes, via the H₄ receptor, whereas it down-regulated γδ T cell mediated cytotoxicity through H₂ receptors and G_s protein-coupled signalling. Our data suggest that histamine activated γδ T cells could modulate immunological surveillance of tumour tissue.